HPG Axis

Question 1

What do we need to reproduce?

Answer 1

• Correct process of sex determination and differentiation
• Sexual maturation - puberty
• Production and storage of sufficient supply of eggs and sperm
• Correct number of chromosomes in egg and sperm
• Actual sexual intercourse - egg and sperm have to be transported and meet
• Fertilisation, implantation, embryonic and placental development
• Capable of “independent” life

Question 2

What controls gonadal function?

Answer 2

It is controlled via feedback by:

• Hypothalamic and pituitary peptide hormones
• Gonadal steroid (and peptide) hormones
• Only on one occasion there is positive feedback which is in females during ovulation.

Question 3

What does the hypothalamus release?

Answer 3

It releases Gonadotrophin releasing hormone (GnRH), (kisspeptin).

Question 4

What does the pituitary release?

Answer 4

Follicle Stimulating Hormone (FSH) and Luteinising Hormone (LH)

Question 5

What do the gonads releases?

Answer 5

Oestradiol (E2), Progesterone (P4), Testosterone (M), Inhibin and activin.

Question 6

What does the HPG axis coordinate?

Answer 6

To coordinate gonadal function for viable gamete production (male), growth and development (both).

Question 7

What does the hypothalamus contain?

Answer 7

It contains specialised neurons within the brain that secrete hormones. It is composed of various nuclei that not only coordinate reproduction but other functions as well such as spermatogenesis, regulation of appetite etc.

Question 8

When was the role of kisspeptin in reproduction discovered?

Answer 8

2001

Question 9

Where is kisspeptin expressed in the hypothalamus?

Answer 9

In the arcuate nucleus and the anteroventral periventricular nucleus

Question 10

What is kisspeptin upstream to?

Answer 10

GnRH

Question 11

Describe the stimulation of kisspeptin

Answer 11

Kisspeptin neurons send projections to GnRH neurons, binding to GPR54 expressed on GnRH neurons.

Question 12

Where is GnRH synthesised and secreted?

Answer 12

From GnRH neurons

Question 13

How is GnRH secreted?

Answer 13

In a pulsatile fashion-pulse generator orchestrated

Question 14

What does GnRH do?

Answer 14

It binds to the GnRH receptor on gonadotroph cells of the anterior pituitary to stimulate the synthesis and secretion of gonadotrophin hormones - LH and FSH.

Question 15

What causes the synthesises of GnRH?

Answer 15

In response to kisspeptin

Question 16

What is the structure of kisspeptin?

Answer 16

10 amino acids long after cleavage

Question 17

What is the structure of GnRH?

Answer 17

10 amino acids long

Question 18

When is GnRH secreted from the hypothalamus (minutes)?

Answer 18

Every 30-120 mins

Question 19

What does the GnRH pulse stimulate?

Answer 19

It stimulates a pulse of LH and FSH secretion from the pituitary.

Question 20

What do slow and rapid pulse frequency of GnRH favour?

Answer 20

Slow - FSH release

Rapid - LH release

Question 21

What happens when there is continuous release of GnRH?

Answer 21

Results in cessation of response

Question 22

What are the therapeutic application of GnRH?

Answer 22

• Synthetic GnRH: same structure as endogenous GnRH -> pulsatile administration - stimulatory
• GnRH analogues: modified GnRH peptide structure

Question 23

What does an inhibitory GnRH analogue do?

Answer 23

It has a single bolus, long half-life, loss of pulsatility. They can be used as agonists or antagonists

Question 24

Describe the mechanism of action of a synthetic GnRH agonist

Answer 24

1. Bind to receptor
2. Activation of signalling
3. Stimulation of gonadotrophin synthesis and secretion
4. Uncoupling of GnRHR from G protein signalling
5. GnRHR non-responsive to GnRH

Question 25

Describe the mechanism of action of a normal GnRH signalling profile

Answer 25

1. Bind to Receptor
2. Activation of signalling
3. Stimulation of gonadotrophin secretion and secretion
4. Dissociation of GnRH from GnRHR
5. GnRHR responsive to next GnRH pulse

Question 26

Describe the mechanism of action of a GnRH antagonist

Answer 26

1. Bind to receptor
2. Blockage of receptor
3. No downstream effects

Question 27

What are the clinical uses of GnRH and GnRH analogues?

Answer 27

• Ovulation induction and IVF
• ER+ brain cancer in pre-menopausal women
• GnRHR/GnRH+ ovarian and endometrial cancers
• Prostate cancer
• Endometriosis
• PCOS
• Uterine fibroids

Question 28

What is the structure of gonadotrophins?

Answer 28

All have a common alpha subunit and the either LHbeta, FSHbeta, hCGbeta

Question 29

Describe the gonadotrophin pulses of the follicular phase

Answer 29

Blood is drawn every 20 mins

• Shows an increase in LH when there is a decrease in FSH.
• When there is a increase in FSH, LH decreases

Question 30

What are the most important hormones from the anterior pituitary?

Answer 30

LH, FSH and hCG

Question 31

What is glycosylation?

Answer 31

It is the enzymatic process to link saccharides togther to form glycans.

Question 32

Why is glycosylation important?

Answer 32

It is important for FSH and LH to require carbohydrates (CHOs) to be active. When first used to make synthetic FSH, it didn’t work because it wasn’t glycosylated.

Question 33

What maintains the corpus luteum?

Answer 33

The beta-hCG from developing blastocyst

Question 34

Why is the reason for the pulse unclear?

Answer 34

It is unclear as it is not needed for growth of follicle or spermatogenesis.

Question 35

What is the function of LH in testis?

Answer 35

Stimulation of leydig cell androgen synthesis

Question 36

What is the function of LH in the ovary?

Answer 36

Theca cell androgen synthesis
Ovulation
Progesterone production of corpus luteum

Question 37

What is the function of FSH in the testis?

Answer 37

Regulation of Sertoli cell metabolism

Question 38

What is the function of FSH in the ovary?

Answer 38

Follicular maturation

Granulosa cell estrogen synthesis

Question 39

What do the leydig cells do?

Answer 39

They express LHR to produce androgens such as testosterone

Question 40

What do the sertoli cells do?

Answer 40

They express FSHR that is important for sertoli cell metabolism for spermatogenesis.

Question 41

What do the theca cells do?

Answer 41

They have LHR which produces androgens

Question 42

What do the granulosa cells do?

Answer 42

They have FSHR which produce oestrogens

Question 43

What does the corpus luteum do?

Answer 43

LHR (and FSHR) -> progesterone (and oestrogens)

Question 44

What happens during puberty?

Answer 44

In the gonads, they produce mature gametes:

• Testes -> spermatozoa
• Ovaries -> oocytes

Breast development in females, and increased testicular volume in males

Secondary characteristics develop (primary are present at birth)

Profound physiological and psychological changes

Question 45

Define puberty

Answer 45

Transition from non-reproductive to reproductive state

Question 46

What are the two endocrine events of puberty?

Answer 46

• Adrenarche

- Gonadarche

Question 47

What happens during adrenarche?

Answer 47

Adrenal androgens cause the growth of pubic hair, axillary hair
Growth in height

Question 48

What happens during gonadarche?

Answer 48

LH -> causes steroid synthesis for secondary sex characteristics

FSH -> causes the growth of testis in males and steroid synthesis/folliculogenesis in females

Question 49

What are the androgens excreted from the adrenal cortex of the adrenal gland?

Answer 49

Dehydro-epiandrosterone (DHEA)

Dehydro-epiandrosterone sulphate (DHEAS)

Question 50

What happens to the levels of adrenal androgens?

Answer 50

There is a gradual increase across 6 to 15 years. There is 20-fold increase peaking at 20-25 years then it declines thereafter.

Question 51

What specific area of the adrenal cortex are adrenal androgens secreted?

Answer 51

Secreted from zona reticularis of adrenal cortex

Question 52

What triggers adrenarche?

Answer 52

There is no known mechanism

Question 53

What is pubarche?

Answer 53

Appearance of pubic/axillary hair resulting from adrenal androgen secretion

Question 54

What is pubarche associated with and what can they cause?

Answer 54

• High sebum production = acne

- Infection abnormal keratinization = acne

Question 55

What happens if pubarche occurs before 8 years (girls) or 9 years (boys)?

Answer 55

Precocious

Question 56

When does gonadarche occur?

Answer 56

Several years after adrenarche (typically about 11 years of age)

Question 57

What happens during gonadarche?

Answer 57

• Reactivation of hypothalamic GnRH

- Activation of gonadal steroid production -> production of viable gametes and ability to reproduce

Question 58

What are GnRH neurones?

Answer 58

They are specialist hypothalamic centres that synthesise and secrete GnRH

Question 59

When is the HPG axis activated?

Answer 59

It is activated at the 16th gestational week.

Question 60

How is GnRH released in the foetus?

Answer 60

It is released pulsatile in the foetus until 1-2 years postnatally when it ceases.

Question 61

When is the pulsatile secretion of GnRH reactivated?

Answer 61

At 11 years; GnRH neurones ‘restrained’ during postnatal period age 10 years or more.

Question 62

What is thought to stimulate the onset of puberty?

Answer 62

It is clear that it is a maturational event within the CNS.

• Inherent (genetic) maturation of 800-1000 GnRH synthesising neurones?
• Environmental/genetic factors?
• Body fat/nutrition?
• Kisspeptin?

Question 63

What is the link between nutrition and the HPG axis?

Answer 63

In anorexia nerovsa/intensive physical training:

• There is a reduced response to GnRH
• Decrease in gonadotrophin levels
• Amenorrhea
• Restored when nourished/exericse stopped

Question 64

What is the Frisch et al body fat hypothesis?

Answer 64

Certain % fat:body weight is necessary for menarche (7%) and required (22%) to maintain female reproductive ability.

Question 65

What happens if there is inactivating mutations of KISS1R or the gene coding kisspeptin?

Answer 65

It can cause hypogonadism, failure to enter puberty or hypogonadotrophic hypogonadism

Question 66

What happens if there is a activating mutations of KISS1R?

Answer 66

Precocious puberty

Question 67

What else does kisspeptin influence?

Answer 67

• Gonadal function
• Leptin (satiety) in the adipose tissue
• Ghrelin (hunger) in the gut

Question 68

What is consonance?

Answer 68

It is “smooth ordered progression of changes”.

Question 69

What is the average age of menarche onset?

Answer 69

12.5 years

Question 70

What is the age of onset, pace and duration of puberty in changes dependent on?

Answer 70

Wide inter-individual differences

Question 71

Describe the tanner stages of puberty: scale of physical measures of development

Answer 71

1. Pubic and axillary hair growth
2. Testicular volume and penile length (male)
3. Breast development (female)
   4 and 5. Mature Completion of puberty

Question 72

What are the physical changes in girls during puberty?

Answer 72

• Breasts enlarge
• Pubic/axillary hair
• Uterus enlarges, cytology changes, secretions in response to E2
• Uterine tubes
• Vagina
• Cervical changes
• Height
• Body shape
• HPG Axis
• Menarche
• Fertility

Question 73

What is thelarche?

Answer 73

First outward sign of E2 activity

Question 74

What are the physical changes in boys during puberty?

Answer 74

• External genitalia
• Vas deferens
• Seminal vesicles and prostate
• Facial/body hair
• Pubic/axillary hair
• Layrnx
• Height
• Body shape
• Onset of fertility

Question 75

What are the physical features in the larynx area of boys?

Answer 75

• Androgens -> enlarge layrnx, Adam’s apple (projection of thyroid cartilage)

Question 76

What is the peak height velocity of females and males?

Answer 76

Females = 9cm/year reached at 12 years 
Males = 10.3cm/year reached at 14 years

Question 77

What does testosterone do in physical changes in boys?

Answer 77

Testosterone from leydig cells stimulates meisosis and spermatogenesis in Sertoli cells
Boys are fertile at the beginning of puberty

Question 78

What causes a growth spurt?

Answer 78

A complex interaction between growth hormone and oestrogen.

Question 79

When does a growth spurt occur in girls?

Answer 79

It occurs earlier in girls approx. 2 years.

Question 80

What is the biphasic effect of oestrogen on epiphyseal growth?

Answer 80

• Low levels cause linear growth and bone maturation

- High levels cause epiphyseal fusion

Question 81

What are the effects of androgens on the differentiation of pilosebaceous units (PSUs)?

Answer 81

• Stimulate sebum secretion and together with infection this can cause acne.
• Induce differentiation of vellus PSUs to terminal PSUs encouraging mustache and beard growth.
• Induce differentiation of vellus hairs to apo-PSUs encouraging increased growth in areas of pubic and axillary hair.

Question 82

What are the psychological changes in puberty?

Answer 82

1. Increasing need for independence
2. Increasing sexual awareness/interest
3. Development of sexual personality -> later maturation = better adjustment

Question 83

What is precocious sexual development?

Answer 83

Development of any secondary sexual characteristics before the age of 8 in girls and before the age of 9-10 in boys

Question 84

What is gonadotrophin-dependent (or central) precocious puberty?

Answer 84

Consonance

• Excess GnRH secretion - idiopathic or secondary
• Excess gonadotrophin secretion - pituitary tumour

Question 85

What is gonadotrophin-independent precocious puberty?

Answer 85

Loss of consonance -

• Testotoxicosis - activating mutation of LH receptor
• Sex steroid secreting tumour of exogenous steroids

Question 86

What is the most common gonadotrophin-independent endocrine disorder?

Answer 86

McCune Albright Syndrome

Question 87

What are the symptoms of the McCune Albright Syndrome?

Answer 87

• Fibrous dysplasia
• Cafe au lait skin pigmentation
• Autonomous endocrine function: - most common gonadotrophin-independent precocious puberty
• Hyperactivity of signalling pathways and over-production of hormones

Question 88

What is pubertal delay?

Answer 88

Absence of secondary sexual maturation by 13 years in girls (or absence of menarche by 18 year) or 14 years in boys

Question 89

What is delayed HPG Axis activation?

Answer 89

1. Constitutional delay
2. Hypogonadotrophic hypogonadism (low LH and FSH)
3. Hypergonadotrophic hypogonadism (high LH and FSH)

Question 90

What happens in constitutional delay?

Answer 90

• Affects both growth and puberty
• Approx. 90% of all pubertal delay cases
• About 10x more common in boys
• Secondary to chronic illness e.g. diabetes, cystic fibrosis

Question 91

What are some types of hypogonadotrophic hypogonadism?

Answer 91

• Kallman’s syndrome (X-linked KAL1 gene, Impaired GnRH migration)
• Other mutations causing defects in GnRH production

Question 92

What are some types of hypergonadotrophic hypogonadism?

Answer 92

• Gonadal dysgenesis and low sex steroid levels:

- Gonadal dysgenesis with normal karyotype, viral e.g. Mumps

Question 93

Give some examples of gonadal dysgenesis

Answer 93

• Kinefelter’s syndrome XXY or variants

- Turner’s syndrome XO

Question 94

What are two classic symptoms of turners?

Answer 94

• Being shorter than normal

- Underdeveloped or “streak” ovaries